Phosphate esters of ethers of thiol substituted phenols

ABSTRACT

Sulfur containing phosphate esters of thio ethers of phenols and alkoxylated phenols are described, together with method for their preparation and their use as lubricants. The sulfur containing phosphate esters described are represented by the general formula:   WHEREIN: R is an alkyl group of one to 20 carbon atoms, phenyl or aralkyl X IS AN INTEGER OF FROM 1 TO 3 INCLUSIVE N IS AN INTEGER OF FROM 0 TO 50 INCLUSIVE (PREFERABLY 1-20) M IS AN INTEGER OF 1 TO 3 INCLUSIVE Y is hydrogen, methyl or ethyl Z is hydrogen or alkyl, of one to 20 carbons atoms and M is a cation, e.g., H, alkali metal, alkaline earth metal, heavy metal, ammonium or amino. These sulfur containing phosphate esters have valuable lubricating properties and exhibit good anti-wear extreme pressure properties both alone or in water or as additives to other lubricants, such as mineral oils, especially for use as cutting oils or other metal working applications, gear lubricants, etc.

United States Patent 91 Eiseman, Jr. et a].

[ 1 Mar. 27, 1973 PHOSPHATE ESTERS OF ETHERS OF THIOL SUBSTITUTED PHENOLS [75] Inventors: Fred S. Eiseman, Jr., Maplewood; Leslie M. Schenck, Mountainside, both of N.J.; John P. G. Beiswanger,

Audubon, Pa.

[73] Assignee: GAF Corporation, New York, NY.

[22] Filed: Oct. 13, 1970 [21] Appl. No.: 80,477

[52] US. Cl. ..260/949, 252/327 E, 260/429 R, 260/429.9, 260/435 R, 260/438.1, 260/439 [51] Int. Cl. ..C07f 9/12, ClOm 7/46 [58] Field of Search ..260/949, 925

[56] References Cited UNITED STATES PATENTS 3,151,022 9/1964 Gilbert et al ..260/949 X Primary ExaminerLewis Gotts Assistant Examiner-Anton H. Sutto AttorneyWalter C. Kehm and Samson B. Leavitt ABSTRACT Sulfur containing phosphate esters of thio ethers of phenols and alkoxylated phenols are described, together with method for their preparation and their use as lubricants. The sulfur containing phosphate esters described are represented by the general formula:

1 (R SQ: (H)

I: v O JHOHQ O-P-(OM);-n.

z Y A lm wherein:

R is an alkyl group of one to 20 carbon atoms,

phenyl or aralkyl x is an integer of from 1 to 3 inclusive n is an integer of from 0 to 50 inclusive (preferably 1-20) m is an integer of l to 3 inclusive Y is hydrogen, methyl or ethyl Z is hydrogen or alkyl, of one to 20 carbons atoms and M is a cation, e.g., H, alkali metal, alkaline earth metal, heavy metal, ammonium or amino. These sulfur containing phosphate esters have valuable lubricating properties and exhibit good anti-wear extreme pressure properties both alone or in water or as additives to other lubricants, such as mineral oils, especially for use as cutting oils or other metal working applications, gear lubricants, etc.

12 Claims, No Drawings PHOSPHATE ESTERS F ETHERS 0F THIOL SUBSTITUTED PHENOLS treme pressure properties. More particularly, it is directed to mono-, di-, and tri-phosphate ethers of phenols and especially of alkoxylated phenols.

We have discovered that phosphate esters having the general formula:

wherein:

R is an alkyl group of one to 20 carbon atoms, (including alkylphenyl) of six to 18 carbon atoms or aralkyl of six to 18 carbon atoms.

x is an integer of l, 2 or 3 m is an integer of l, 2 or 3 n is an integer of from 0 to 50, preferably of from 1 20,

Y is hydrogen, methyl or ethyl Z is hydrogen or alkyl of from one to 20 carbon atoms, and

M is a cation, e.g. H, alkali metal, alkaline earth metal, heavy metal, ammonium or amino, are characterized by outstanding anti-wear and extreme pressure properties and are valuable lubricants and lubricant additives.

It is therefore an object of the present invention to provide sulfur containing phosphate esters which are new and outstanding in their anti-wear and extreme pressure properties.

Other and further objects will be apparent as the present description progresses.

The sulfur containing phosphate esters of the present invention may conveniently be prepared by the reaction with P 0 of a thio ether of a phenol. Since the phosphate esters derived from an (alkylthio)-phenol, or more preferably an alkoxylated (alkylthio)-phenol are particularly preferred, the present invention will be described with particular reference to their production. This reaction can advantageously be carried out under the conditions disclosed in US Pats. No. 3,004,056 to Nunn and Hesse and No. 3,004,057 to Nunn for the preparation of mixed monoand di-esters of nonionic surfactants, and the disclosure of said patents is incorporated herein by reference. As disclosed in said patents 1 mole of P 0 is reacted with 2 to 4.5 moles of a nonionic surfactant, which for the production of the sulfur containing phosphate esters of the present inven tion is replaced by 2 to 4.5 moles of a thio ether of phenol, preferably an (alkylthio )-phenol or alkoxylated (alkylthio)-phenol. ln its preferred form the reaction is conducted under substantially anhydrous conditions and at a temperature below about 110 C., since at higher temperatures there is a tendency for discolored and darkened products to be formed. The reaction is preferably carried out by adding the P 0 gradually, with vigorous agitation, to the (alkylthio)-phenol or alkoxylated (alkylthio)-phenol in liquid form. The reaction is exothermic and cooling is necessary in some cases to keep the temperature below 110 C. The reaco XQ tion proceeds continuously during the addition of the P 0 and is preferably followed by maintenance of the reaction mixture at temperatures of from ambient up to 110 C., or even somewhat higher, for an additional period of time after completion of such addition to allow for complete solution of the P 0 and its reaction with the (alkylthio)-phenol or alkoxylated (alkylthio)- phenol.

The reaction product obtained by carrying out the reaction as described above is a mixture of the primary esters (sometimes called monoesters) and secondary esters (sometimes called diesters) of phosphoric acid and the (alkylthio)-phenol or alkoxylated (alkylthio)- phenol, and may still contain appreciable amounts of unreacted (alkylthio)-phenol or alkoxylated (alkylthio)-phenol starting material. Such mixtures, which will usually consist of about 20 to 50 percent of a secondary phosphate ester, 30 to percent of the primary phosphate ester and 0 to 50 percent of the unreacted (alkylthio)-phenol or alkoxylated (alkylthio)- phenol need not be separated, but are useful as is as lubricants and lubricant additives.

Since the ratio of primary and secondary phosphate esters is not critical and the presence of unreacted (alkylthio)-phenols or alkoxylated (alkylthio)-phenols, even up to 50 percent by weight of the total reaction product, is not detrimental to the attainment of the objects of the present invention, the mixture of products obtained directly as the reaction product in the process described above constitutes a preferred form of the sulfur containing phosphate esters of the present invention. The ratio of primary and secondary phosphate esters and the amount of unreacted starting material can, however, be controlled by various known techniques, if desired.

Thus, the amount of unreacted (alkylthio)-phenol or alkoxylated (alkalthio)-phenol can be reduced to a minimum of less than 10 percent by choice of the molar ratio of hydroxyl containing compound to P 0 If desired the triester may be produced, by reacting the (alkylthio)-phenol or alkoxylated (alkylthio)- phenol with PCI;,, or a triaryl phosphite, to form a phosphite which can then be readily oxidized to the triester, or the triester may be formed directly by reaction of the (alkylthio)-phenol or alkoxylated (alkylthio)-phenol with POCI The thio ethers of phenols which may be used as such or preferably in the form of their alkoxylated derivatives for the production of the sulfur containing phosphate esters of the present invention may be represented by the general formula:

II (Rs%-3OH wherein R, x and Z are as defined above.

A number of such thio ethers of phenols are known and methods for their preparation have been described in the chemical literature. For example, Farah and Gilbert in US. Pat. No. 3,134,818 disclose the production of (alkylthio)-phenols by the reaction of a dialkylsulfide with a phenol, which is unsubstituted in at least one of the positions ortho or para to the phenolic hydroxy group, in the presence of certain sulfonic acids as a catalyst. By selection .of the particular phenol employed in their process the value of Z in the above formula can be varied. Thus, if phenol is used, Z will be H, if cresol is used 2 will be methyl, products in which Z is butyl can be obtained by the use of butylphenol, those in which Z is nonyl can be obtained by the use of nonylphenol. Thus, by the selection of the appropriate alkyl-phenol the position of Z and the number of carbon atoms therein can be varied, Likewise by selection of the appropriate dialkyl sulfide to be used the specific nature or value of Rcan be varied. Products in which R, in the above formula is methyl can be obtained by the use of dimethylsulfide, while for R to be butyl or octyl, dibutylsulfide or dioctylsulfide, respectively, would be used. For R to be aryl a diary] sulfide, e.g. diphenylsulfide, may be used, and if R is to be aralkyl, a di-aralkylsulfide, e.g. di-benzylsulfide, should be used. Other methods for the synthesis of thio ethers of phenols of the above formula are disclosed in US. Pat. No. 2,745,878 to Mavity, US. Pat. No. 2,923,743 to Delfs et al. and in' an article by Miller and Read in JACS 55, l,2241,226 (1933)and may be used.

' Since 4-(methylthio)-phenol and 4-(methylthio)-mcresol are commercially available, and quite satisfactory products can be produced therefrom, we prefer to use them for the production of our novel phosphate esters. However, other thio ethers of phenols may be used if desired and as examples thereof may be mentioned:

o, m or p-(ethylthio)-phenol o, m or p-( propylthio)-phenol o, m or p-(butylthio)-phenol 4-(amylthio)- m-cresol 4-(methylthio) -o-cresol 2-(hexylthio)-4-ethylphenol p-(octylthio)-phenol p-(dodecylthio)-phenol 2,4-di(amylthio)-phe nol 3,5-di(methylthio)-o-cresol 3,5-di(t .butylthio) phenol 2,4-di(t.octylthio)'phenol Z-(methylthio)-4-(t.butylthio)-phenol 3-(methylthio)-5-t.octylphenol 3-(methylthio)-5-(t.octylthio)-phenol Z-(methylthio)-4-dodecylphenol 3.,5,-di(methylthio)4-t.butylphenol 2,4-di(me nthylthio)-6-dodecylphenol 2-(phen'ylthio)-phenol 4-(phenylthio)-phenol 2-(Phenylthio)-4-nonylpheno Z-(cresylthio )-phenol p-(octadecylthio)-phenol p-(eicosylthio)-phenol 4-(hexylthio )-o-cresol 4-(octylthio)-m-cresol 2-(octylthio)-'p-cresol' 2-(dodecylthio)-p-cresol 2-(octadecylthio)-p-cresol 2-(amylthio)-4-t.butylphenol 2,4,5-tri(methylthio)-phenol 2,4,6-tri(ethylthio)-phenol 2,4,5-tri(t.butylthio )-phenol 3 ,4,6-tri(methylthio )-o-cresol 4-(octylthio)-2-nonylphenol 4-(hexylthio )-2-dodecylphenol 2-(methylthio)-4,-octadecyl-phenol 2,4-di(methylthio)-6-nonylphenol 2,4-di(butylthio)-6-nonylphenol 2-(cresylthio)4-t.butylphenol 2-(benzylthio)-phenol 2-(benzylthio)-4-t.octylphenol The above-mentioned (alkylthio)-phenols may be used as, such for the production of the novel phosphate esters of the present invention but preferably are converted to non-ionic polyglycol ethers, as by condensation thereof with one or more molar propartions of an alkylene oxide, and the thus obtained non-ionic polyglycol ethers then converted to the novel phosphate esters of the present invention.

The conversion of the (alkylthio)'-phenols to nonionic polyglycol ethers may readily be accomplished by the method disclosed in US. Pat. No. 2,213,477 for the production of non-ionic surfactants by the condensation of an alkylphenol with an alkylene-oxide, e.g. ethylene-oxide, propylene-oxide, butylene-oxide or a mixture of such oxides. In brief, the (alkylthio)-phenol is condensed with an alkylene-oxide, by introducing the alkylene-oxide into the heated (alkylthio)-phenol, which preferably containsa small amount of alkali, such as sodium or potassium hydroxide, as catalyst, until the desired amount of alkylene-oxide has been condensed with the (alkylthio)-pheno1. As the amount of alkylene-oxide which is condensed with the (alkylthio )-phenol is increased, and thus the length of the polyglycol ether group increased (i.e. the number of alkenoxy groups in the polyglycol ether is increased, and n in Formula I above thus becomes higher) the water solubility of the thus obtained non-ionic polyglyglycol ethers (and also that of the phosphate esters produced therefrom) increases and their oil solubility decreases. While as much as or more molar proportions of alkylene-oxide may readily be condensed with the (alkylthio)-phenol, there is little advantage is using molar proportions of this order of magnitude, and we therefore prefer to use from 1 to 2 0 molar proportions of alkylene-oxide per mole of (alkylthio)-phenol. Ethyleneoxide, propylene-oxide or butylene-oxide maybe used for the production of the products of this invention, or if desired a mixture of such alkylene-oxides may be used, or if desired the (alkylthio)- phenol may first be condensed with one to several molar proportions of one alkylene-oxide, say propylene or butylene-oxide, and the thus obtained glycol ether then condensed with one or more molar proportions of another alkylene-oxide, say ethylene-oxide.

The oil solubility of the (alkylthio)-phenols (and also that of the polyglycol ethers and phosphate esters produced therefrom) increases as the number of carbon atoms in alkyl group of the (alkylthio)-phenol, and/or in any other alkyl substituent thereon, is increased. Also as the number of carbon atoms present in such alkyl groups increases the amount of alkyleneoxide necessary to obtain products having a given degree of water-solubility also increases. Thus by selection of the particular (alkylthio)-phenol, and/or the amount of alkylene-oxide condensed therewith, products having any desired degree of oil or-water solubility can be tailor-made.

Preferred methods for the production of the novel phosphate esters of the present invention, from the foregoing (alkylthio)-phenols or their/nonionic polyglycol ethers, are disclosed in U.S. Pat. Nos.

3,004,056 and 3,004,057, the disclosures of which are incorporated herein by reference; although, as indicated previously other methods of producing primary, secondary or tertiary phosphate esters of alcohols may be used if desired, and purity and/or ratio of. the primary, secondary and/or tertiary esters controlled in the manner known in the art disclosed above.

The details of the preparation of the novel sulfur containing phosphate esters of the present invention will be apparent to those skilled in the art from the specific examples given below of the preparation and testing of certain preferred embodiments of this invention.

EXAMPLE 1 To a 500 ml. four-necked flask there was charged 218 g. (0.54 mole) of the nonionic polyglycol ether obtained by condensing 6 moles of ethylene-oxide with 1 mole of 4-(methylthio)-phenol 6 E.O. While the material in the flask was agitated at room temperature, nitrogen was bubbled in slowly and 28.5 g. (0.2 mole) of phosphorus pentoxide were added in small increments over a period of one-half hour. During the addition of the P the temperature was held below 40 C., by external cooling if necessary. On completion of the addition, the contents of the flask were heated to 90-95 C. and held at that temperature for 4 hours. The product was then cooled and bottled. The thus obtained mixture of primary and secondary phosphate esters of 4-(methylthio)-pheno1 6 E.O. which still contained some of the unreacted non-ionic polyglycol ether starting material had the following analysis:

% Sulfur- 7.2 (Theory 6.9)

% Monoester 43.6

% Diester- 45.6

% Non-ionic- 13.5 (unreacted) EXAMPLE 2 To a 500 ml. four-necked flask was charged 226 g. (0.54 mole) of the non-ionic polyglycol ether obtained by condensing 6 moles of ethylene-oxide with 1 mole of 4-(methylthio)-m-cresol, hereinafter called 4- (methylthio)-m-cresol, 6 E0. The material in the flask was agitated at room temperature, nitrogen was bubbled in slowly and 28.5 g. (0.2 mole) of P 0 were added in small shots over one-half hour while holding the temperature below 40 C. The batch was then heated to 90-9S C. and held at that temperature for 4 hours. The product, a mixture of primary and secondary phosphate esters of 4-(methylthio)-m-cresol containing some unreacted non-ionic starting material was then cooled and bottled. It had the following analysis:

X: Sulfur- 7.2 (Theory- 67) k Monoester- 37.5 I: Diester- 59.6 Nonionic- 8.87 (unreacted) EXAMPLE 3 To a 500 ml. four-necked flask were charged 170 g. (0.70 mole) of 4-(methylthio)-phenol 2 ED. and the material agitated at room temperature. Nitrogen was bubbled in slowly and 28.5 g. of P 0 were added in small portions over one-half hour, holding the temperature below 40 C. The batch was then heated to 90-95 C and held at that temperature for 4 hours. The product was cooled and bottled. it had the following analysis:

% Sulfur- 10.2 (Theory- 10.4) Monoester- 41.7 Diester- 12.5

EXAMPLE 4 The anti-wear properties of aqueous solutions, of

0.25 percent concentration, of the products of the forgoing Examples l, 2 and 3 were ascertained in a Brown modified Shell Four Ball machine using four steel balls, SAE 52-100, as described in U.S. Pat. No. 3,036,072. The tests were run at room temperature, 1,500 RPM and Kg. load. For purposes of com- .parison, control tests were run with two sulfur free phosphate ester lubricants, produced in an analogous manner from non-ionic surfactants containing a polyglycol ether group and which are sold commercially as lubricants. Phosphate ester A and Phosphate ester B, used for comparison, were mixtures of primary and secondary phosphate esters produced as described in US. Pat. No. 3,004,056 from When the procedure of Example 1 is repeated except that 374 g. (0.50 mole) of the non-ionic polyglycol ether obtained by condensing 10 moles of ethylene oxide with 1 mole of 3-nonyl-4(butylthio)-phenol, hereinafter called 3-nonyl-4(butylthio)-phenol'.+ 10 E0. is used (instead of 218 g. of 4-(methylthio)- phenol 6 E.O.), there is obtained a mixture of primary and secondary phosphate esters of 3-nonyl-4(butylthio)-phenol 10 15.0. having the following typical analysis:

% Sulfur- 4.1 (Theory- 3.98)

% Monoester- 41.8

% Diester- 46.5

% Nonionic 11.4 (unreacted) EXAMPLE 6 When the procedure of Example 1 is repeated except that 306 g. (0.50 mole) of the non-ionic polyglycol ether obtained by condensing 5 moles of ethylene oxide with 1 mole of 2-(octadecyl-thio)-4-methyl phenol, hereinafter called 2-(octadecylthio)-4-methy1 phenol 5 E. 0.," there is obtained a mixture of primary and secondary phosphate esters of 2-(octadecylthio)-4- methyl phenol 5 ED. having the following typical analysis:

% Sulfur- 4.6 (Theory 4.8) Monoester- 46.2 Diester- 43.8 Nonionic- 9.8 (unreacted) EXAMPLE 7 Into a l-liter-three-neck flask equipped with, thermometer, agitator and distillation head with thermometer and condenser charge 62 g. (0.2 mole) of triphenyl phosphite and 250.8 g (0.6 mole) of the nonionic polyglycol ether obtained by condensing 6 moles of ethylene oxide with 1 mole of 4-(methylthio)-m-cresol. Heat the reaction mixture at mm pressure to l60-170 C, collecting phenol as the distillate from the transesterification. When about 90 percent of the expected quantity of phenol (approximately 50 g.) has been collected, increase the temperature to 220-240 C to complete the reaction and distill out the remaining phenol. The tri-[4-(methylthio)m-cresyl]-phosphite is recovered in substantially quantitative yield. After cooling to room temperature the phosphite is essentially quantitatively oxidized to the phosphate by adding thereto 1.25 g. (0.005 mole) of dibenzoylperoxide and heating, with stirring, under slight oxygen pressure (50-60 mm Hg) until the theoretical weight gain of 3.2 g. is attained (in approximately 1 1 hours). No detectable hydrolysis occurs during the oxidation.

The novel sulfur containing primary and secondary phosphate esters ofthe present invention can be used as lubricants. either in their free acid form or in the form of their salts, such as their alkali metal salts, e.g. sodium, potassium or lithium salts, their alkaline earth metal salts, e.g. barium, calcium, magnesium and stron- 1 lubricating oilsof'petroleum origin and synthetic lubrica'nts, for these and other applications such as greases, rust-preventives, gear, turbine, transmission and similar oils and lubricants to improve the anti-wearextreme pressure properties thereof.

As examples of synthetic lubricants in which the products of the present invention are useful additives may be mentioned: ester lubricants such as alkyl oxalates, malonates, succinates, glutarates, adipates, pimelates, suberates, azelates, sebacates, esters from polyols such as pentaerythritol, trimethylol propane and sorbitol, alkyl esters of aliphatic monocarboxylic acids such as lauric, oleic, palmitic, stearic and behenic acids and'the like. Other lubricants include silicone lubricants such as polysiloxane oils and greases of the type poly-alkyl, polyaryl, polyalkoxy, polyaryloxy such as polydimethoxy-phenoxy siloxane, silicate ester oils such as tetraalkyloxy and tetraaryloxy-silanes, and the like. Also fluorocarbon lubricants such as CF,CFC|),, where n an integer, and polyalkylene glycol lubricants such as ethylene oxide-propylene oxide copolymers and phosphate esters such as wherein R, R and R" represent hydrogen, phenyl, al-

kylphenyl or an alkyl radical such as butyl, octyl, lauryl, 1

oleyl, palmityl and the like.

We claim: 1. Sulfur containing phosphate estersof the formula:

R is an alkyl group of one to 20 carbon atomsphenyl or benzyl x is an integer of from l to 3 inclusive n is an integer of from 0 to 50 inclusive m is an integer of 1 to 3 inclusive Y is hydrogen, methyl or ethyl Z is hydrogen or alkyl, ofone to 20 carbon atoms'and M is a cation, e.g. H, alkali metal, alkaline earth metal.

2. Sulfur containing phosphate esters as defined in claim 1 wherein:

x is l and n is an integer of 0 to 20 inclusive. 3. Sulfur containing phosphate esters claim 2 wherein:

Z is hydrogen.

4. Sulfur containing phosphate esters claim 3 wherein:

R is methyl.

5. Sulfur containing phosphate esters claim 2'wherein:

Z is alkyl of one to 20 carbon atoms.

6. Sulfur containing phosphateesters claim 5 wherein: p v

R is methyl.

7. Sulfur containing phosphate esters claim 2 wherein:

n is an integer of l to 20 inclusive.

8. Sulfur containing phosphate esters claim 7 wherein:

Z is methyl.

9. Sulfur containing phosphate esters claim 8 wherein:

a R is methyl.

10. Sulfur containing phosphate esters as defined in claim 7 wherein:

Z is alkyl of one to 20 carbon atoms.

11. Sulfur containing phosphate esters as defined in claim 1 wherein m is l or 2.

l2. Sulfur containing phosphate esters as defined in claim 1 wherein m is 3. a

k III i as defined in as defined in as defined in as defined in as defined in as defined in as defined in 

2. Sulfur containing phosphate esters as defined in claim 1 wherein: x is 1 and n is an integer of 0 to 20 inclusive.
 3. Sulfur containing phosphate esters as defined in claim 2 wherein: Z is hydrogen.
 4. Sulfur containing phosphate esters as defined in claim 3 wherein: R is methyl.
 5. Sulfur containing phosphate esters as defined in claim 2 wherein: Z is alkyl of one to 20 carbon atoms.
 6. Sulfur containing phosphate esters as defined in claim 5 wherein: R is methyl.
 7. Sulfur containing phosphate esters as defined in claim 2 wherein: n is an integer of 1 to 20 inclusive.
 8. Sulfur containing phosphate esters as defined in claim 7 wherein: Z is methyl.
 9. Sulfur containing phosphate esters as defined in claim 8 wherein: R is methyl.
 10. Sulfur containing phosphate esters as defined in claim 7 wherein: Z is alkyl of one to 20 carbon atoms.
 11. Sulfur containing phosphate esters as defined in claim 1 wherein m is 1 or
 2. 12. Sulfur containing phosphate esters as defined in claim 1 wherein m is
 3. 